Patent Application
20120024967
The present invention relates to a two-dimension barcode, and especially to a QR (Quick Response) code formed on a metal surface and a manufacturing method thereof.
A two-dimension barcode is a new technology of information storage and transmission, which is widely used in various applications, including product identification, security and anti-counterfeiting, and E-commerce. The two-dimension barcode records information data with specific geometric patterns of black and white graphic symbols arranged in two-dimensional directions. The concept of logical basis of “0” and “1” bit stream adopted in computer systems is utilized to form graphic symbols that correspond to binary representation of text and numerical information. The graphic symbols can be read by an image input device or a photoelectric scanning device to achieve automatic information processing.
International standards of the two-dimension barcode include for example PDF417, Data Matrix, Maxi Code, and QR (Quick Response) Code, among which QR code is most widely used. The QR code shows an advantage of high-speed and all-direction (360 degrees) accessibility, and is capable of representation of Chinese characters, rendering QR code wide applicability in various fields. The QR code comprises a square array of a series of small square message blocks, in which “0” or “1” are represented through variation of gray levels of bright and dark blocks. For applications automobile manufacturing, aircraft manufacturing, weapon manufacturing, and various mechanical products, the QR code must be formed via engraving a metal surface or a plastic surface. However, the QR code formed through engraving leads to a contrast between bright and dark blocks that is poorer than a contrast obtained in a printed surface. This makes the identification of QR code on a metal surface difficult, eventually resulting in distortion of identified data.
Therefore, it is desired to have a highly stable, readable and identifiable QR code to overcome aforesaid drawbacks.
An objective of the present invention is to provide a highly stable, readable, and identifiable QR (Quick Response) code.
Another objective of the present invention is to provide a manufacturing method of a QR code which is highly stable, readable and identifiable.
To achieve the foregoing objectives, according to an aspect of the present invention, a QR code is provided, comprising a square block composed of a plurality of message unit blocks arranged according to certain rules without gaps. The message unit blocks comprise white and black message unit blocks. The white message unit blocks of the QR code are bright planes formed on a metal surface through die casting, and each bright plane of white message unit block is set at an angle with respect to a horizontal plane. The black message unit blocks of the QR code are scattering planes formed on the metal surface, and the scattering planes are set on the same plane parallel to the horizontal plane.
According to another aspect, the present invention provides a manufacturing method of QR code, comprising the following first and second steps, of which the first step performs die casting on a metal surface to form bright planes corresponding to message unit blocks that constitute the QR code, the bright plane of each of the message unit blocks being set at an identical inclination angle with respect to a horizontal plane, and the second step uses a laser engraving machine to remove one or more of the bright planes that correspond to black message unit blocks of the QR code to respectively form scattering planes that are set on the same plane parallel to the horizontal plane.
Accordingly, the QR code of the present invention represents black and white message unit blocks respectively through the bright planes and the scattering planes, which show an enhanced contrast between bright and dark, so that the QR code so formed is of high stability, readability and identification.
Reference will now be made in detail to the present preferred embodiments of the invention, examples of which are illustrated in the accompanying drawings.
With reference to the drawings and in particular to
The black message unit blocks of the QR code 10 are represented as scattering planes 12 in accordance with one preferred embodiment of the present invention. The scattering planes 12 are formed on the same plane, which is parallel to the horizontal plane. With the white and black message unit blocks of the QR code 10 represented as bright planes 11 and scattering planes 12, the contrast therebetween is enhanced and readability and stability are improved.
Reference is now made to
At step S001, die casting is performed to form bright planes on a metal surface respectively corresponding to message unit blocks that constitute the QR code, which the bright planes of the message unit blocks are set at an identical inclination angle with respect to a horizontal plane.
At step S002, a laser engraving machine is used to remove one or more of the bright planes corresponding to positions of black message unit blocks of the QR code to form scattering planes that are set on the same plane parallel to the horizontal plane.
Specifically, the manufacturing method further comprises a step of forming a positioning block 13 through die casting in front of the step S001, wherein the QR code 10 is formed on one side of said positioning block 13 with edges of the QR code 10 respectively perpendicular to edges of the positioning block 13. As being indicated by the positioning block 13, bright planes 11 of can be easily formed on a metal surface with identical inclination through die casting, the laser engraving machine may easily acquire position information of the QR code 10 to accurately and quickly remove the bright planes 11 corresponding to the black message unit blocks of the QR code 10 for forming desired scattering planes 12.
As mentioned above, the QR code 10 of the present invent presents the white and black message unit blocks via the bright planes and the scattering planes with a strong contrast induced therebetween, so that the QR code 10 so formed shows high stability, readability and easy identification.
While the preferred embodiments of the present invention have been illustrated and described in detail, various modifications and alterations can be made by persons skilled in this art. The embodiment of the present invention is therefore described in an illustrative but not restrictive sense. It is intended that the present invention should not be limited to the particular forms as illustrated, and that all modifications and alterations which maintain the spirit and realm of the present invention are within the scope as defined in the appended claims.
